Quantum dissipative systems - Open Access .click

Annual Review of Physical Chemistry, 2005
▪ Abstract Quantum dissipation involves both energy relaxation and decoherence, leading toward quantum thermal equilibrium. There are several theoretical prescriptions of quantum dissipation but none of them is simple enough to be treated exactly in real applications.
Yan, YJ, Xu, RX
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Quantum dissipation in unbounded systems

Physical Review E, 2002
In recent years trajectory based methodologies have become increasingly popular for evaluating the time evolution of quantum systems. A revival of the de Broglie--Bohm interpretation of quantum mechanics has spawned several such techniques for examining quantum dynamics from a hydrodynamic perspective.
Jeremy B, Maddox, Eric R, Bittner
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Quantum diffusion in dissipative systems

Physical Review B, 1985
The motion of a quantum-mechanical particle driven by a random fluctuating force is studied. Dissipation is introduced by coupling the particle to a continuous distribution of harmonic oscillators. A general expression for the mean-square displacement 〈${x}^{2}$(t)〉 is derived. It is shown that for long times t, one gets a crossover from a nondiffusive
, Marianer, , Deutsch
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physics
fos: physical sciences
quantum physics quant-ph

quantum physics
science
statistical mechanics cond-mat.stat-mech

open quantum systems
random systems
condensed matter - statistical mechanics